photo of Victor Haurylavets

Victor Haurylavets

Researcher

Department: Sectoral laboratory of radiation safety
Address: Belarusian State University, Institute for Nuclear Problems, 220006, Minsk, Belarus, Bobruiskaya str., 11 , 302
Page at Google Academy
ORCID Publications

Education:

2008 Graduate of Belarusian State University, Physics faculty, specialisation: nuclear physics and microelectronics
2009 Master of physics, Graduate School of the National Academy of Sciences of Belarus

Selected papers:

  1. MBN EXPLORER ATOMISTIC SIMULATIONS OF 855 MEV ELECTRON PROPAGATION AND RADIATION EMISSION IN ORIENTED SILICON BENT CRYSTAL: THEORY VERSUS EXPERIMENT / Haurylavets V.V., Leukovich A., Sytov A., Bandiera L., Mazzolari A., Romagnoni M., Guidi V., Sushko G.B., Korol A.V., Solov’yov A.V. // European Physical Journal Plus. 2022. Vol. 137. № 1. DOI: 10.1140/epjp/s13360-021-02268-0
  2. Bandiera, L., V. V. Tikhomirov, M. Romagnoni, N. Argiolas, E. Bagli, G. Ballerini, A. Berra, C. Brizzolari, R. Camattari, and D. De Salvador, V. Haurylavets, V. Mascagna, A. Mazzolari, M. Prest, M. Soldani, A. Sytov and E. Vallazza. 2018. «Strong Reduction of the Effective Radiation Length in an Axially Oriented Scintillator Crystal.» Physical Review Letters 121 (2): 21603. arXiv:1803.10005 [physics.ins-det]
  3. Baryshevsky, V.G., V.V. Haurylavets, M.V. Korjik, A.S. Lobko, V.A. Mechinsky, A.I. Sytov, V.V. Tikhomirov, and V.V. Uglov. 2017. «On the Influence of Crystal Structure on the Electromagnetic Shower Development in the Lead Tungstate Crystals.» Nuclear Instruments & Methods in Physics Research Section B-Beam Interactions With Materials and Atoms 402: 35–39. DOI: 10.1016/J.NIMB.2017.02.066
  4. Haurylavets, V. V., and V. V. Tikhomirov. 2012. «Two-Dimensional Model of Intrinsic Magnetic Flux Losses in Helical Flux Compression Generators.» ArXiv Preprint ArXiv: 1209.5633.
  5. Haurylavets, V.V., A. Leukovich, A. Sytov, L. Bandiera, A. Mazzolari, M. Romagnoni, V. Guidi, G.B. Sushko, A.V. Korol, and A.V. Solov’yov. 2020. «MBN Explorer Atomistic Simulations of 855 MeV Electron Propagation and Radiation Emission in Oriented Silicon Bent Crystal: Theory versus Experiment.» ArXiv Preprint ArXiv: 2005.04138.
  6. Bandiera, L., V. Haurylavets, and V. Tikhomirov. 2019. «Compact Electromagnetic Calorimeters Based on Oriented Scintillator Crystals.» Nuclear Instruments & Methods in Physics Research Section A-Accelerators Spectrometers Detectors and Associated Equipment 936: 124–26. DOI: 10.1016/J.NIMA.2018.07.085
  7. Camattari, Riccardo, Laura Bandiera, Marco Romagnoni, Alexei Sytov, Davide De Salvador, Viktar Haurylavets, Enrico Bagli, Andrea Mazzolari, Vincenzo Guidi, and Werner Lauth. 2019. «Enhancement of Bremsstrahlung Radiation Generated by Electron Beam Interaction in an Axially-Oriented Scintillator Crystal (Poster)» 26 (1): 13. DOI: 10.3390/PROCEEDINGS2019026013
  8. Haurylavets, V. V., and V. V. Tikhomirov. 2013. «Mathematical Simulation of Helical Flux Compression Generator Physics.» Mathematical Models and Computer Simulations 5 (4): 334–37. DOI: 10.1134/S2070048213040054
  9. Tikhomirov, V. V., V. V. Haurylavets, A. S. Lobko, and V. A. Mechinsky. 2016. «Oriented Crystal Applications in High Energy Physics.» International Conference on Engineering of Scintillation Materials and Radiation Technologies, 259–80. DOI: 10.1007/978-3-319-68465-9_16
  10. Baryshevsky, Vladimir, Alexandra Gurinovich, Igor Vasiliev, Victor Tikhomirov, and Victor Haurylavets. 2013. «Magnetic Field Probe for Noninvasive Diagnostics of FCG Operation: Simulation and Experiment.» IEEE Transactions on Plasma Science 41 (10): 2926–30. DOI: 10.1109/TPS.2013.2275021